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8 years ago

Cocaína

  • Text
  • Cocaina
  • Consumo
  • Cocaine
  • Sustancias
  • Trastornos
  • Serebrisky
  • Tratamiento
  • Desacuerdo
  • Trastorno
  • Efectos
  • Abstinencia
Trastornos por sustancias - Cocaína

D Serebrisky // Efectos

D Serebrisky // Efectos de la cocaína • Peoples LL, Gee F, Bibi R, West MO (1998). Phasic firing time locked to cocaine self-infusion and locomotion: dissociable firing patterns of single nucleus accumbens neurons in the rat. J Neurosci 18: 7588–7598. • Peraile I, Torres E, Mayado A, Izco M, Lopez-Jimenez A, Lopez-Moreno JA et al (2010). Dopamine transporter down-regulation following repeated cocaine: implications for 3,4-methylenedioxymethamphetamine-induced acute effects and long-term neurotoxicity in mice. Br J Pharmacol 159: 201–211. • Pérez de los Cobos, J., Santis, R., Tejero, A. (1999). La medición del craving de sustancias psicoactivas ilegales. Trastornos Adictivos, 1, 22-26. • Platt JJ, (1997). Cocaine Addiction. Theory, Research and Treatment. Cambridge (Mass): Harvard University Press. • Poschel B.P, Ninteman F.W. (1963) Norepinephrine: a possible excitatory neurohormone of the reward system. Life sciences. 10:782-8. • Raffa RB, Valdez JM. (2001). Cocaine withdrawal in Planaria. Eur J Pharmacol , vol. 430, no. 1, pp. 143-145. • Ramamoorthy S, Samuvel DJ, Balasubramaniam A, See RE, Jayanthi LD (2010). Altered dopamine transporter function and phosphorylation following chronic cocaine self-administration and extinction in rats. Biochem Biophys Res Commun 391: 1517–1521. • Ritz MC, Lamb RJ, Goldberg SR, Kuhar MJ (1987). Cocaine receptors on dopamine transporters are related to self-administration of cocaine. Science 237: 1219–1223. • Ritz MC, Lamb RJ, Goldberg SR, Kuhar MJ (1988). Cocaine selfadministration appears to be mediated by dopamine uptake inhibition. Progr Neuro-Psychopharmacol Biol Psychiatry 12: 233–239. • Robinson, T.E. y Berridge, K.C. (1993). The neural bases of drug craving: an incentive sensitization theory if addiction. Brain Research Reviews, 18, 247-291. • Salamone JD, Correa M. (2012) The mysterious motivational functions of mesolimbic dopamine. Neuron. 76(3):470-85. • Satel, S. (1992). “Craving for and fear of cocaine”: a phenomenologic update on cocaine craving and paranoia. En: T.R. Kosten y H.D. Kleber (Eds.), Clinician`s guide to cocaine addiction. Theory, research and treatment (pp. 172-192). New York: The Guildford Press. • Self DW, Choi KH, Simmons D, Walker JR, Smagula CS (2004). Extinction training regulates neuroadaptive responses to withdrawal from chronic cocaine self-administration. Learn Mem 11:648–657. • Strickland TL y cols. (1993). Crebral perfusion and neuropsychological consequences of chronic cocaine use. J Neuropsychaitry; 5: 419-27. • Tanen DA, Graeme KA, Curry SC. (2000). Crack cocaine ingestion with prolonged toxicity requering electrical pacing. Clin Toxicol; 38(6):653-657. • Tejero, A., Trujols, J. y Siñol, N. (2003). Evaluación del craving de cocaína. En: J. Pérez de los Cobos, A. Tejero y J. Trujols, Instrumentos clínicos para la evaluación de la dependencia de la cocaína (pp. 23-50). Barcelona: Ars Medica. • Tiffany, S. T. (1990). A cognitive model of drug urges and drug-use behav-ior: Role of automatic and nonautomatic processes. Psychological Review, 97, 147-168. • Tiffany, S.T. y Conklin, C.A. (2000). Cognitive processing model of alcohol craving and compulsive alcohol use. Addiction, 95 (supl. 2), 145-153. • Tiffany, S.T., Singlenton, E., Haertzen, C.A. y Henningfield, I.E. (1993). The development of a cocaine craving questionnaire. Drug and Alcohol Dependence, 34, 19-28. • Torres G, Horowitz JM. (1998). Activating properties of cocaine and cocaethylene in a behavioral preparation of Drosophila melanogaster. Synapse Jun;29(2):148-61. • Uhl GR, Hall FS, Sora I. (2002). Cocaine, reward, movement and monoamine transporters. Molecular Psychiatry; 7:21-26. • Volkoff H, Peter RE. (2011). Characterization of two forms of cocaine- and amphetamine-regulated transcript (CART) peptide precursors in goldfish: molecular cloning and distribution, modulation of expression by nutritional status, and interactions with leptin. Endocrinology. 2001; 142: 5076-88. EDITORIAL SCIENS 35

D Serebrisky // Trastornos por sustancias - Cocaína • Volkow ND, Fowler JS, Wolf AP, Hitzemann R, Dewey S, Alpert R y cols. (1991). Changes in brain glucose metabolism in cocaine dependence and withdrawal. Am J Psychiatry; 148:626-626. • Volkow ND, Wang GJ, Fowler JS, Hitzemann R, Angrist B, Gatley SJ y cols. (1999). Association of methylphenidate-induced craving with changes in right striato-orbitofrontal metabolism in cocaine abusers: implications in addiction. Am J Psychiatry; 156:19-26. • Volkow ND, Wang GJ, Fowler JS. (1997). Imaging studies of cocaine in the human brain and studies of the cocaine addict. Ann N Y Acad Sci; 820: 41-54; discussion 54-5. • Weaver, M.F. y Schnoll, S.H. (1999). Stimulants: amphetamines and cocaine. En: B.S. McCrady y E.E. Epstein (Eds.), Addictions. A comprehensive guide-book (105- 120). New York: Oxford University Press. • Wetli CV, Mash D, Karch SB. (1996). Cocaine-associated agitated delirium and the neuroleptic syndrome. Am J Emerg Med;14:425-428. • White, F. J.; Hu, X-T. & Zhang, X-F. (1995). Repeated administration of cocaine or amphetamine alters neuroronal responses to glutamate in the mesoaccumbens dopamine system, Journal of. Pharmacological and Experimental Therapeutics, 273, 445-454. • Wise R.A., et al (1978) Neuroleptic-induced "anhedonia" in rats: pimozide blocks reward quality of food. Science. 201:262-4. • Wolf JH, Huang L, Ishifuro Y, Morgan JP. (1997). Negative inotropic effect of methylecgonidine, a major product of cocaine base pyrolysis, on ferret and human myocardium. J Cardiovasc Pharmacol. 30: 352-9. • Zerkin EL, Novey JH. (1982). Cocaine free base abuse; A new smoking disorder. J Psychoactive Drugs; 14: 321-6. 36

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